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      Link between Plant Phosphate and Drought Stress Responses

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      Author(s): 1 , 2 , 3 , 4 , 5 , 5 , * , , 1 , * ,
      Publication date (Electronic, pub):
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      Journal: Research
      Publisher: AAAS

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          Abstract

          The menace of drought has persistently loomed over global crop production, posing a serious threat to agricultural sustainability. Research on drought stress highlights the important role of the phytohormone abscisic acid (ABA) in orchestrating plant responses to drought conditions. ABA regulates various drought/dehydration-responsive genes, initiates stomatal closure, and influences cellular responses to drought stress. Additionally, plants employ a phosphate starvation response (PSR) mechanism to manage phosphate (Pi) deficiency, with ABA playing a role in its regulation. However, despite intensive research in these fields, the precise connection among PSRs, drought stress, and ABA signaling still needs to be determined. Recently, PSR-related gene induction has been reported to occur before the induction of ABA-responsive genes under progressive mild drought. Mild drought decreases Pi uptake and contents in plants, triggering PSRs, which play an important role in plant growth during mild drought. Both ABA-responsive and PSR-related gene expression could indicate plant perception of external moisture conditions. Thus, integrating the information regarding their associated gene expression with soil moisture contents and thermographic data can enable timely irrigation optimization to mitigate the effect of drought on crop productivity.

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          Osmoregulation and its actions during the drought stress in plants.

          Munir Ozturk, Bengu Turkyilmaz Unal, Pedro García-Caparrós (2021)
          Drought stress, which causes a decline in quality and quantity of crop yields, has become more accentuated these days due to climatic change. Serious measures need to be taken to increase the tolerance of crop plants to acute drought conditions likely to occur due to global warming. Drought stress causes many physiological and biochemical changes in plants, rendering the maintenance of osmotic adjustment highly crucial. The degree of plant resistance to drought varies with plant species and cultivars, phenological stages of the plant, and the duration of plant exposure to the stress. Osmoregulation in plants under low water potential relies on synthesis and accumulation of osmoprotectants or osmolytes such as soluble proteins, sugars, and sugar alcohols, quaternary ammonium compounds, and amino acids, like proline. This review highlights the role of osmolytes in water-stressed plants and of enzymes entailed in their metabolism. It will be useful, especially for researchers working on the development of drought-resistant crops by using the metabolic-engineering techniques.
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            Phosphorous fertilization alleviates drought effects on Alnus cremastogyne by regulating its antioxidant and osmotic potential

            Akash Tariq, Kaiwen Pan, Olusanya Abiodun Olatunji (2018)
            Alnus cremastogyne, a broad-leaved tree endemic to south-western China, has both commercial and restoration importance. However, little is known of its morphological, physiological and biochemical responses to drought and phosphorous (P) application. A randomized experimental design was used to investigate how drought affected A. cremastogyne seedlings, and the role that P applications play in these responses. Drought had significant negative effects on A. cremastogyne growth and metabolism, as revealed by reduced biomass (leaf, shoot and root), leaf area, stem diameter, plant height, photosynthetic rate, leaf relative water content, and photosynthetic pigments, and a weakened antioxidative defence mechanism and high lipid peroxidation level. However, the reduced leaf area and enhanced osmolyte (proline and soluble sugars) accumulation suggests drought avoidance and tolerance strategies in this tree. Applying P significantly improved the leaf relative water content and photosynthetic rate of drought-stressed seedlings, which may reflect increased anti-oxidative enzyme (superoxide dismutase, catalase and peroxidase) activities, osmolyte accumulation, soluble proteins, and decreased lipid peroxidation levels. However, P had only a slight or negligible effect on the well-watered plants. A. cremastogyne is sensitive to drought stress, but P facilitates and improves its metabolism primarily via biochemical and physiological rather than morphological adjustments, regardless of water availability.
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              Plant adaptation to low phosphorus availability: Core signaling, crosstalks, and applied implications

              Javier Paz-Ares, María Isabel Puga, Monica Rojas-Triana (2022)
              Article 0 comments Cited 32 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Journal ID (nlm-ta): Research (Wash D C)
                Journal ID (iso-abbrev): Research (Wash D C)
                Journal ID (publisher-id): RESEARCH
                Title: Research
                Publisher: AAAS
                ISSN (Electronic): 2639-5274
                Publication date (Electronic, pub): 01 July 2024
                Publication date (Electronic, collection): 2024
                Volume: 7
                Electronic Location Identifier: 0405
                Affiliations
                [ 1 ]Crop Nanobiology and Molecular Stress Physiology Lab, Amity Institute of Organic Agriculture, Amity University Uttar Pradesh , Sector-125, Noida 201313, India.
                [ 2 ]Plant Microbe Interaction Lab, Amity Institute of Organic Agriculture, Amity University Uttar Pradesh , Sector-125, Noida 201313, India.
                [ 3 ]Plant Physiology Laboratory, Department of Botany, C.M.P. Degree College, A Constituent Post Graduate College of University of Allahabad , Prayagraj 211002, India.
                [ 4 ]Unidad de Genomica Avanzada, Centro de Investigación y de Estudios Avanzados del Intituto Politecnico Nacional , Irapuato 36821, Mexico.
                [ 5 ]Institute of Genomics for Crop Abiotic Stress Tolerance, Department of Plant and Soil Science, Texas Tech University , Lubbock TX 79409, USA.
                Author notes
                [*] [* ]Address correspondence to: son.tran@ 123456ttu.edu (L-S.P.T.); dktripathiau@ 123456gmail.com (D.K.T.)
                Author information
                https://orcid.org/0000-0001-9883-9768
                Article
                Publisher ID: 0405
                DOI: 10.34133/research.0405
                PMC ID: 11214869
                SO-VID: 202af870-8bf4-44ae-8916-9a9efe6fd225
                Copyright © Copyright © 2024 Nidhi Kandhol et al.
                License:

                Exclusive licensee Science and Technology Review Publishing House. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution License 4.0 (CC BY 4.0).

                History
                Date received : 04 April 2024
                Date accepted : 18 May 2024
                Date: 01 July 2024
                Page count
                Figures: 1, Tables: 0, References: 19, Pages: 0
                Funding
                Funded by: Science and Engineering Research Board;
                Award ID: SRG/2020/002309
                Award Recipient : Not Applicable
                Categories
                Subject: Perspective

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